Solar radiation management with a tethered sun shield
István Szapudi
Abstract
This paper presents an approach to Solar Radiation Management (SRM) using a tethered solar shield at the modified gravitational L1 Lagrange point. Unlike previous proposals, which were constrained by the McInnes bound on shield surface density, our proposed configuration with a counterweight toward the Sun circumvents this limitation and potentially reduces the total mass by orders of magnitude. Furthermore, only 1% of the total weight must come from Earth, with ballast from lunar dust or asteroids serving as the remainder. This approach could lead to a significant cost reduction and potentially be more effective than previous space-based SRM strategies.
Topics & Concepts
ShieldCounterweightAerospace engineeringRadiation pressureRadiationEnvironmental scienceReduction (mathematics)NoonAstrobiologyPhysicsMeteorologyAstronomyOpticsGeologyEngineeringMathematicsGeometryThermodynamicsPetrologyClimate Change and GeoengineeringSpaceflight effects on biologySolar and Space Plasma Dynamics